Reflection type image forming optical system and projector

1. A reflection type image forming optical system comprising: a first reflection mirror having a rotation symmetric aspheric shape concave reflection surface directed to an image forming surface arranged an image forming element thereon; a second reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said first reflection mirror; a third reflection mirror having a rotation symmetric aspheric shape concave reflection surface directed toward a flux of light from said second reflection mirror; and a fourth reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said third reflection mirror; said first, second, third and fourth reflection mirrors forming a telecentric optical system.

2. A reflection type image forming optical system comprising: a first reflection mirror having a rotation symmetric aspheric shape concave reflection surface directed to an image forming surface arranged an image forming element thereon; a second reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said first reflection mirror; a third reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said second reflection mirror; and a fourth reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said third reflection mirror; said first, second, third and fourth reflection mirrors forming a telecentric optical system.

3. A reflection type image forming optical system as set forth in claim 1 , wherein the shapes of the reflection surfaces of the reflection mirrors forming said reflection type image forming optical system satisfies the following formulae (1) to (3) taking an optical axis as z axis, a plane perpendicular to the z axis as x-y plane, an intersection between the z axis and the x-y plane as origin O, and axes intersecting at the origin O, extending on the x-y plane and perpendicularly intersecting with each other as x axis and y axis: z = c 2 1 + 1 - ( 1 + k ) c 2 2 + i = 1 8 i 2 i ( 1 ) 2 = x 2 + y 2 ( 2 ) c = 1 / r ( 3 ) wherein i (i 1, 2, . . . , 8) are correction coefficients, r is a curvature radius of the reflection surface and k is conical coefficient.

4. A projector comprising: a telecentric illumination optical system having a light source and an image forming optical system; a reflection type image forming element arranged on an image forming surface of said telecentric illumination optical system; and a telecentric reflection type image forming optical system locating an image forming surface at an arrangement position of said reflection type image forming element and reflecting and projecting a flux of light reflected by said reflection type image forming element on a screen, said reflection type image forming optical system including; a first reflection mirror having a rotation symmetric aspheric shape concave reflection surface directed to an image forming surface arranged an image forming element thereon; a second reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said first reflection mirror; a third reflection mirror having a rotation symmetric aspheric shape concave reflection surface directed toward a flux of light from said second reflection mirror; and a fourth reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said third reflection mirror.

5. A projector comprising: a telecentric illumination optical system having a light source and an image forming optical system; a reflection type image forming element arranged on an image forming surface of said telecentric illumination optical system; and a telecentric reflection type image forming optical system locating an image forming surface at an arrangement position of said reflection type image forming element and reflecting and projecting a flux of light reflected by said reflection type image forming element on a screen, said reflection type image forming optical system including; a first reflection mirror having a rotation symmetric aspheric shape concave reflection surface directed to an image forming surface arranged an image forming element thereon; a second reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said first reflection mirror; a third reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said second reflection mirror; and a fourth reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said third reflection mirror.

6. A projector comprising: a telecentric illumination optical system having a light source and an image forming optical system; a transmission type image forming element arranged on an image forming surface of said telecentric illumination optical system; and a telecentric reflection type image forming optical system locating an image forming surface at an arrangement position of said transmission type image forming element and reflecting and projecting a flux of light passed through said transmission type image forming element on a screen, said reflection type image forming optical system including; a first reflection mirror having a rotation symmetric aspheric shape concave reflection surface directed to an image forming surface arranged an image forming element thereon; a second reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said first reflection mirror; a third reflection mirror having a rotation symmetric aspheric shape concave reflection surface directed toward a flux of light from said second reflection mirror; and a fourth reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said third reflection mirror.

7. A projector comprising: a telecentric illumination optical system having a light source and an image forming optical system; a transmission type image forming element arranged on an image forming surface of said telecentric illumination optical system; and a telecentric reflection type image forming optical system locating an image forming surface at an arrangement position of said transmission type image forming element and reflecting and projecting a flux of light passed through said transmission type image forming element on a screen, said reflection type image forming optical system including; a first reflection mirror having a rotation symmetric aspheric shape concave reflection surface directed to an image forming surface arranged an image forming element thereon; a second reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said first reflection mirror; a third reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said second reflection mirror; and a fourth reflection mirror having a rotation symmetric aspheric shape convex reflection surface directed toward a flux of light from said third reflection mirror.

8. A projector as set forth in claim 4 , wherein the shapes of the reflection surfaces of the reflection mirrors forming said reflection type image forming optical system satisfies the following formulae (1) to (3) taking an optical axis as z axis, a plane perpendicular to the z axis as x-y plane, an intersection between the z axis and the x-y plane as origin O, and axes intersecting at the origin O, extending on the x-y plane and perpendicularly intersecting with each other as x axis and y axis: z = c 2 1 + 1 - ( 1 + k ) c 2 2 + i = 1 8 i 2 i ( 1 ) 2 = x 2 + y 2 ( 2 ) c = 1 / r ( 3 ) wherein i (i 1, 2, . . . , 8) are correction coefficients, r is a curvature radius of the reflection surface and k is conical coefficient.

9. A projector as set forth in claim 4 , wherein said illumination optical system has a light path converting element.